JP3621835B2 - Playback device for electronic still camera - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
【Technical field】
According to the present invention, a digital electronic still camera (digital still video) which takes an image of a subject, converts a video signal obtained thereby into digital image data, and records the image data in a detachably mounted memory cartridge. A reproducing apparatus for reproducing and displaying image data captured by a camera); A memory cartridge is a case or card having a built-in semiconductor memory, and includes a memory card.
[0002]
[Prior art]
A recent electronic still camera described in Japanese Patent Publication No. 62-21310 is known. This electronic still camera digitizes a video signal representing a subject image and stores it as image data in an internal memory built in the electronic still camera body. At the time of reproduction, the image data is read from the internal memory and sent to an external reproduction device via a connector. Since the playback device converts the supplied image data into a video signal and supplies it to the display device, a still image is displayed on the display device.
[0003]
In the electronic still camera described in Japanese Patent Application Laid-Open No. 59-183582, image data is recorded on a memory cartridge that is detachable from the camera body.
[0004]
The above-mentioned electronic still camera is convenient in that it does not need to carry a separate memory cartridge, but the number of frames that can be photographed is limited by the storage capacity of the internal memory, and the storage capacity of the internal memory You cannot shoot more than the specified number of frames. If an internal memory with a large storage capacity is used, the camera becomes expensive. Also, the storage capacity of the internal memory is limited, and it is not always possible to secure the number of frames required for practical use.
[0005]
On the other hand, the latter electronic still camera has an advantage that photographing can be performed without restriction on the number of frames by preparing a necessary number of memory cartridges. However, even if there are only a few frames to be shot, you must always carry a memory cartridge. Also, after the memory cartridge is full of image data, it is not possible to take a picture unless the memory cartridge is replaced.
[0006]
Furthermore, in order to read and reproduce image data from the internal memory of the former electronic still camera, it is necessary to prepare a separate reproducing device.
[0007]
In order to read out and reproduce the image data photographed by the latter electronic still camera and stored in the memory cartridge, it is necessary to prepare a separate reproducing apparatus.
[0008]
However, since the playback device for the former electronic still camera and the playback device for the latter electronic still camera (memory cartridge) are different in connector form, they cannot be shared. Therefore, when two types of electronic still cameras are used for shooting, two types of playback devices are required, which is disadvantageous and inconvenient from the viewpoint of handling and storage space. Also, purchasing two types of devices is expensive and disadvantageous economically.
[0009]
SUMMARY OF THE INVENTION
[0010]
An object of the present invention is to provide a playback apparatus that can be shared for playback of image data stored in an internal memory and an external memory (memory cartridge) of a camera.
[0011]
According to a first aspect of the present invention, there is provided a playback device for an electronic still camera, an internal memory for storing image data, a connector for connecting a memory cartridge incorporating an external memory for storing image data, the internal memory, An electronic device comprising memory selecting means for selecting from which of external memory image data is to be read, and image data reading means for reading out and outputting image data designated from the memory selected by the memory selecting means An image connected to a still camera and connected to a first cartridge and a memory cartridge for receiving image data read and output from the memory of the electronic still camera, and read and output from the memory in the memory cartridge Second connector that accepts data, video signal suitable for displaying the given image data Conversion and outputs the reproducing means, and selects one of the first and second connectors, and the image data supplied through selected connector and a connector selecting means to be supplied to the reproducing means.
[0012]
Preferably, a third connector for connecting a display device to which a video signal output from the reproducing means is provided is further provided.
[0013]
Image designation means is further provided for designating image data to be read from the memory of the electronic still camera or the memory of the memory cartridge.
[0014]
The electronic still camera reads image data from either the internal memory for storing image data, a connector for connecting a memory cartridge containing an external memory for storing image data, or the internal memory or the external memory. It comprises memory selection means for selecting the image and image data reading means for reading out and outputting the designated image data from the memory selected by the memory selection means.
[0015]
Preferably, means for instructing which of the internal memory and the external memory of the electronic still camera should read image data is further provided.
[0016]
In an embodiment of the first invention, the reproducing apparatus has a first operation unit including the connector selection means, and the electronic still camera has a second operation unit for instructing its operation. The playback device further enables the operation input in one of the first operation unit and the second operation unit, disables the other operation input, and responds to the operation input from the valid operation unit. And an operation selection means for causing the operation commanded by the operation input to be performed.
[0017]
In another embodiment of the first invention, a fourth connector for receiving an input of a video signal from outside and a video signal input from the fourth connector are converted into image data, and the image data is converted into the above-mentioned first data. Recording means for storing data in the memory of the electronic still camera or the memory cartridge via the first or second connector is further provided.
[0018]
According to the first invention, an electronic still camera is connected to the first connector, a memory cartridge is connected to the second connector, and the first or second connector is used as the reproducing means by the connector selecting means. By connecting, the image data read through the connector can be reproduced and displayed on the display device. An expansion in which an electronic still camera or a memory cartridge in which image data to be reproduced is recorded is selected by using a reproduction apparatus is possible. In particular, according to the first invention, an electronic device comprising an internal memory, a connector for connecting a memory cartridge incorporating an external memory, and a memory selecting means for selecting either the internal memory or the external memory. A first connector for connecting a still camera is provided. Therefore, not only the electronic still camera or memory cartridge in which the image data to be reproduced is recorded, but also the image data to be reproduced is recorded in the internal memory or the external memory of the electronic still camera. It is possible to develop such that a memory is selected using a playback device, and image data recorded in one of the memories is played back and displayed.
[0019]
According to one embodiment of the first invention, memory selection, reproduction, etc. can be operated using either the first operation unit of the reproduction apparatus or the second operation unit of the electronic still camera.
[0020]
According to another embodiment of the first invention, a video signal from a VTR or the like inputted from the fourth connector is converted into image data, and the image data is converted into an electronic still / digital signal via the first or second connector. Since it can be stored in a camera or a memory cartridge, the recorded content such as a video tape can be duplicated.
[0021]
A reproducing apparatus for an electronic still camera according to a second invention is a memory cartridge connected to a memory of an electronic still camera connected to a first connector or a second connector in the reproducing apparatus according to the first invention. The image designating means for designating image data to be read from the memory is further provided. That is, a playback device according to the second invention is connected to an electronic still camera, to a first connector for receiving image data read out from the memory of the electronic still camera and to a memory cartridge, to a memory cartridge. A second connector for receiving image data read out and output from a memory in the cartridge; reproducing means for converting the supplied image data into a video signal suitable for display; and an electronic device connected to the first connector Image designation means for designating image data to be read from a memory of a still camera or a memory cartridge connected to the second connector, and one of the first and second connectors Select and reproduce the image data specified by the image specifying means through the selected connector. Characterized in that it comprises a connector selecting means for providing a stage.
[0022]
According to the second invention, since the image designating means is provided in the reproduction apparatus itself, the image data to be read out from the memory of the electronic still camera or the memory cartridge connected to the reproduction apparatus is obtained using the reproduction apparatus. Can be specified.
[0023]
According to an embodiment of the second invention, warning means for warning when the corresponding electronic still camera or memory cartridge is not connected to the first or second connector selected by the connector selection means. Further prepare.
[0024]
According to a third aspect of the present invention, there is provided a playback device for an electronic still camera, wherein either one of an operation unit provided in the electronic still camera and an operation unit provided in the playback device in the playback device according to the first invention is provided. The operation input in is made valid and the other operation input is made invalid, and in response to the operation input from the valid operation unit, the reproduction apparatus performs the operation commanded by the operation input. That is, an electronic still camera having a first operation unit for instructing an operation is connected, and a first connector and a memory cartridge for receiving image data read out and output from a memory of the electronic still camera are provided. A second connector for receiving and outputting image data read out and output from a memory in the memory cartridge; and reproducing means for converting the supplied image data into a video signal suitable for display; A second operation unit including a connector selection unit that selects any one of the second connectors and supplies image data supplied through the selected connector to the reproduction unit; and the first operation unit and the second operation unit Plays back in response to an operation input from a valid operation unit with the operation input at one of the operation units enabled and the other operation input disabled. Characterized in that it includes an operation selection unit to perform the operation commanded by the operation input to the location.
[0025]
According to the third invention, the electronic still camera is provided with the first operation unit, and the playback apparatus is provided with the second operation unit. The operation input in one operation unit is validated and the operation input in the other operation unit is invalidated, and commanded by the operation input from the valid operation unit among the operation unit of the electronic still camera or the operation unit of the playback device. It is possible to perform the operation.
[0026]
【Example】
First embodiment
As shown in FIG. 2, the electronic still camera 10 according to the first embodiment of the present invention includes a photographing lens 8 and a finder lens 9 on the front surface thereof. On the upper surface of the electronic still camera 10, a shutter release button 11 and a liquid crystal display 12 are provided. The display surface of the liquid crystal display 12 is divided into three display sections 12A, 12B and 12C. Next to the liquid crystal display 12, an operation unit (indicated by reference numeral 20 in FIG. 1) including a memory selection switch 13, a main switch 14, a forward feed button 16, a reverse feed button 17 and an erase button 18 is arranged. Further, the housing recess of the connector 19 for connecting the external playback device 32 (see FIG. 1) is opened and closed by sliding the lid 21.
[0027]
When the memory selection switch 13 is set to the position of the index 22, the internal RAM 28 built in the camera 10 is selected as shown in FIG. 1, and the external RAM 31 in the memory cartridge 29 is selected and selected at the position of the index 23. In addition, it is possible to record or read image data from or to the RAM. In this embodiment, both the RAMs 28 and 31 have a storage capacity of 12 frames in terms of the number of frames.
[0028]
When the main switch 14 is set to the position of the index 25, the operation of the main electronic circuits in the camera 10 is stopped, and the operating power is supplied only to the minimum necessary circuits such as the circuits necessary for maintaining the memory in the internal RAM 28. Power consumption is minimized. When the main switch 14 is switched to the index position 26, the image reproduction mode is set, and at the position of the index 27, the image recording mode is set.
[0029]
An opening 33 for inserting the memory cartridge 29 is formed in the side surface of the electronic still camera 10, and a connector 34 for connecting the memory cartridge 29 is provided in the inside thereof. Next to the opening 33, a connector 37 for connecting an external monitor 36 for image reproduction (see FIG. 1) is provided.
[0030]
Referring to FIG. 1, when the shutter release button 11 is pressed, a clock pulse is generated from the timing generator 40. A video signal representing a subject image photographed in response to the clock pulse is output from the CCD 38, converted into digital data by the A / D converter 39, and supplied to the signal processing circuit 41. The signal processing circuit 41 separates the color information and luminance information of each pixel from the video signal, and incorporates the address information of each pixel generated based on the clock pulse and the dot clock signal into the image data. Form. The image data is stored in the internal RAM 28 or the external RAM 31 via the interface 42 according to the setting of the memory selection switch 13.
[0031]
The state of the various buttons and switches in the operation unit 20 is always recognized by the CPU 44, and if the shutter release button 11 is pressed while the index 27 is selected by the main switch 14, one picture taken. Image data is distributed from the interface 42 to the internal RAM 28 or the external RAM 31 and transferred. When the index 25 or the index 26 is selected by the main switch 14, even if the shutter release button 11 is pressed, this is invalidated and no clock pulse is generated from the timing generator 40.
[0032]
The cartridge detection circuit 46 connected to the connector 34 detects that the memory cartridge 29 is loaded and sends a detection signal to the CPU 44. The CPU 44 reads the header information of the storage area of the external RAM 31 in the memory cartridge 29 via the interface 42, and based on this header information, the number of storable frames that can be stored in the external RAM 31 of the memory cartridge 29 is stored in the external RAM 31. Recognize the number of frames already stored. Electric power necessary for storage maintenance (backup) of the external RAM 31 is supplied from a battery in a power supply circuit 48 built in the memory cartridge 29.
[0033]
An example of the display contents of the liquid crystal display 12 when the memory cartridge 29 is not loaded is shown in FIG. In display examples 53, 54 and 55, the number of shootable frames “12” corresponding to the storage capacity of the internal RAM 28 is displayed on the display section 12A. In the display section 12B, the number of shot frames already stored in the internal RAM 28 is displayed. The number of shot frames is incremented from “0” to “1”, “2”,. It will be done.
[0034]
When the memory cartridge 29 is loaded, the display on the liquid crystal display 12 is switched as shown in FIG.
[0035]
In the display example 57, the display “CA 12” in the display section 12A indicates that the number of shootable frames in the memory cartridge 29 is 12. The number “0” below it indicates that the number of frames already taken in the memory cartridge 29 is zero.
[0036]
The display “IN 12” in the display section 12B indicates that the number of shootable frames in the internal RAM 28 is 12, and the number “0” below the number is the number of shot frames stored in the internal RAM 28 is 0. It shows that. When the shutter release button 11 is pressed in this state, the “right triangle mark” adjacent to the left of “0” records the first frame image data representing the photographed subject image in the internal RAM 28. Means that If shooting is continued in this state, the display changes as shown in display examples 58 and 59.
[0037]
When the memory selection switch 13 is switched to the position of the index 23 while the display of the display example 57 is being performed, as shown in the display example 61 of FIG. Move to 12A. This display example 61 indicates that when shooting is performed by pressing the shutter release button 11, the captured image data of the first frame is stored in the external RAM 31 in the memory cartridge 29. When shooting is continued, the number of shot frames changes as shown in display example 63 via display example 62. When the number of photographed frames recorded in the external RAM 31 reaches the number of shootable frames 12, the “right triangle mark” corresponds to the internal RAM 28 (with sufficient capacity) without switching the memory selection switch 13. Move to the display section 12B (display example 63). If the memory selection switch 13 is switched to the position of the index 22 in the middle, as shown in the display example 64, the image data taken in the internal RAM 28 can be recorded with a margin in the capacity of the external RAM 31.
[0038]
The frame number in accordance with the photographing order is assigned by the CPU 44 to the image data of each frame stored in the RAM 28 or 31. Further, the display section 12C displays that the remaining energy of the battery in the power supply circuit 47 is insufficient.
[0039]
The display on the liquid crystal display 12 related to the operation of the memory selection switch 13 described above is similarly performed in the image reproduction mode. In the reproduction mode, the numbers under “CA 12” and “IN 12” indicate the frame numbers in the external RAM 31 or the internal RAM 28 of the image displayed on the monitor display device 36 or 51 at that time. Depending on whether the “right triangle mark” is displayed on the display section 12A or 12B, whether the image currently displayed on the monitor is read from the internal RAM 28 or read from the external RAM 31 Is expressed.
[0040]
Each time the forward button 16 is pressed, the frame number is incremented, and the image data of that frame number is read from the internal RAM 28 or the external RAM 31 and displayed on the monitor. When the reverse feed button 17 is pressed, the frame numbers are sequentially decremented. If the forward button 16 or the reverse button 17 is kept pressed, the images are fast-forwarded in the respective feed directions and images of new frames are displayed on the monitor one after another.
[0041]
When the shutter release button 11 is pressed while pressing the erase button 18 in the reproduction mode, the image data of the frame currently displayed on the monitor is erased from the RAM 28 or 31.
[0042]
When the main switch 14 is set to the position of the index 26, the image reproduction mode is set as described above, and the image data in the internal RAM 28 or the external RAM 31 is read out via the interface 42 and sent to the reproduction circuit 49 and the connector 19. The The reproduction circuit 49 D / A converts the image data read from the internal RAM 28 or the external RAM 31 to generate a composite video signal including horizontal and vertical synchronizing signals formed from the address information. This video signal is given to an external monitor display device 36 connected to the connector 37, and a reproduced image represented by the video signal is displayed. The external playback device 32 connected to the connector 19 performs processing similar to that of the playback circuit 49, as well as processing for changing the color of the image displayed on the monitor display device 51 and converting from a color image to a monochrome image. Can do.
[0043]
Next, the operation of the first embodiment will be described.
[0044]
If the number of frames to be photographed is expected to be 12 frames or less, it is only necessary to carry the electronic still camera 10 without the memory cartridge 29.
[0045]
At the time of photographing, the main switch 14 is first switched from the index 25 to the index 27 position. As a result, as shown in the display example 53 in FIG. 3A, “12” is displayed on the display section 12A of the liquid crystal display 12 and “0” is displayed on the display section 12B. The number is 12 and the number of shot frames is 0. When the shutter release button 11 is pressed and the first frame is shot, the image data of frame number 1 is stored in the internal RAM 28, and the number in the display section 12B changes to “1”. Each time the shutter release button 11 is pressed, the numbers in the display section 12B are progressively advanced. When this number reaches the number “12” in the display section 12A, the number of frames that can be shot in the internal RAM 28 matches the number of frames that have already been shot. When shooting is completed, the main switch 14 is switched to the position of the index 25 to prevent the power from being consumed.
[0046]
When the main switch 14 is switched to the position of the index 26, the circuit enters the reproduction mode, and the display on the liquid crystal display 12 is as shown in the display example 53 shown in FIG. When the monitor display device 36 is connected to the connector 37, white is displayed on the screen of the monitor display device 36. When the forward button 16 is pressed once, the display section 12B displays “1”, and the monitor display device 36 displays the image of the frame number 1 of the 12 frames taken. Thereafter, when the forward button 16 or the reverse button 17 is pressed, images of different frame numbers are displayed on the monitor display device 36 one after another, and the frame numbers of the images are displayed in the display section 12B. If the frame number of the image to be displayed is known, the forward button 16 or the reverse button 17 is operated to display the frame number in the display section 12B, so that the desired image is based only on the frame number. Can be searched. Further, by connecting the playback device 32 to the connector 19, an image having the same frame number as that of the monitor display device 36 can be displayed on the other monitor display device 51 in a different display form.
[0047]
When the number of frames to be photographed is large or unknown, the necessary number of memory cartridges 29 are carried along with the electronic still camera 10. For photographing, the main switch 14 is switched from the index 25 to the position of the index 27 to set the image recording mode. At this time, the display example 53 is displayed on the liquid crystal display 12.
[0048]
When the memory cartridge 29 is loaded from the opening 33 and connected to the connector 34, the cartridge detection circuit 46 outputs a detection signal. By setting the memory selection switch 13 to the position of the index 22, the display on the liquid crystal display 12 is changed to the display example 57 in FIG.
[0049]
When the shutter release button 11 is pressed, the photographed first frame image data is stored in the internal RAM 28, and the number under “IN 12” in the display section 12B changes to “1” (display example 58). ). As shooting continues, the numbers under “IN 12” will progress. When the shooting of the 12th frame is finished, the number under “IN 12” becomes “12”, which is equal to the number of frames that can be shot in the internal RAM 28. At this time, as shown in the display example 59, the “right triangle mark” moves to the display section 12A and indicates that it is recorded in the external RAM 31 in the memory cartridge 29 from the 13th frame to be photographed next time. .
[0050]
When the memory selection switch 13 is switched from the index 22 to the index 23 position with the memory cartridge 29 loaded, as shown in the display example 61 of FIG. Move from 12B to display section 12A. In this state, each time the shutter release button 11 is pressed, the image data of each frame is stored in the external RAM 31 and the numbers under “CA 12” are progressively advanced. When the photographing of the 12th frame is completed, the number of frames that have been photographed reaches the number of frames that can be photographed in the external RAM 31, so the “right triangle mark” moves from the display section 12A to the display section 12B and is photographed next time. It is displayed from the 13th frame that it is recorded in the internal RAM.
[0051]
If it is not desired to record in the internal RAM 28, the memory cartridge 29 is replaced with an unused one, so that shooting is continued while the internal RAM 28 is not in use, and the memory cartridge 29 in which the shot image data is newly loaded is loaded. Can be stored. When a new memory cartridge 29 is loaded, the display on the liquid crystal display 12 is as shown in display example 61 of FIG.
[0052]
Shooting is continued with the memory selection switch 13 set to the position of the index 23. For example, when the memory selection switch 13 is switched to the position of the index 22 when the fifth frame is shot, the display on the liquid crystal display 12 is displayed. It changes like the example 64. Thereafter, by pressing the shutter release button 11, the image data of the sixth frame can be recorded in the internal RAM 28 as the image data of frame number 1.
[0053]
When the main switch 14 is set to the position of the index 26 and the memory selection switch 13 is set to the position of the index 22 in a state where the memory cartridge 29 is loaded, the liquid crystal display 12 becomes the display example 57. In the display example 57, the “right triangle mark” exists in the display section 12B, and indicates that the image data stored in the internal RAM 28 will be reproduced. By pressing the forward button 16, an image represented by the image data of frame number 1 stored in the internal RAM 28 is displayed. Thereafter, the forward button 16 or the reverse button 17 can be operated to select an image to be displayed on the monitor display device 36.
[0054]
When the external RAM 31 is selected by switching the memory selection switch 13, the “right triangle mark” moves into the display section 12A, and the image recorded in the external RAM 31 can be reproduced.
[0055]
When erasing only one frame of image data that does not need to be left, the main switch 14 is set to the position of the index 26 to enter the playback mode, and the forward button 16 or the reverse button 17 is operated to delete the frame to be erased. Display the image on the monitor. If the shutter release button 11 is pressed while pressing the erase button 18 in this state, the image data of the frame is deleted, and the image data corresponding to the frame number becomes blank in the RAM. Accordingly, new image data can be recorded at the recording position of the frame number at the next photographing.
[0056]
When the frame number of the image to be erased is clear, the frame number can be selected and erased while observing the display on the liquid crystal display 12 without displaying on the monitor.
[0057]
In the above embodiment, the RAM for recording image data can be selected by the memory selection switch 14, but the image data from the first frame to the twelfth frame is always recorded in the internal RAM 28, and the photographing of the internal RAM 28 is performed. Images after the thirteenth frame exceeding the number of possible frames may be recorded in the external RAM 31 in the memory cartridge 29. Thus, the object of the present invention can be achieved with a simpler operation.
[0058]
As shown in a third embodiment to be described later, a selector and a copy or transfer command switch are provided. When copy or transfer is instructed by this switch, the image data stored in the internal RAM 28 is stored in the memory The data can be transferred to the external RAM 31 of the cartridge 29 and stored, or vice versa. In this case, it is preferable to be able to specify the frame number of the image data to be transferred.
[0059]
Second embodiment
As shown in FIG. 5, the reproducing apparatus 110 for an electronic still camera according to the second embodiment of the present invention has an opening 113 for inserting and removing the memory cartridge 112 in the front surface thereof. The memory cartridge 112 incorporates an external RAM 114 for storing image data. Connectors 116 and 117 are arranged on the right side of the opening 113. The connector 116 is an image data input terminal in the reproduction mode, and the connector 117 is a video signal input terminal in the recording mode.
[0060]
The electronic still camera 10 is the same as that shown in the first embodiment described above, and the same components as those shown in FIGS. The electronic still camera 10 is provided with a connector 37A for inputting and outputting image data. By connecting the connector 37A and the connector 116 with the cable 118, the electronic still camera 10 and the playback device 110 are connected to each other. The memory cartridge 29 inserted into and removed from the electronic still camera 10 is the same as the memory cartridge 112 inserted into and removed from the playback device 110. That is, the memory cartridge 112 can be used in the electronic still camera 10, and the memory cartridge 29 can be used in the playback device 110.
[0061]
When the electronic still camera 10 and the playback device 110 are connected by the cable 118 and the electronic still camera 10 is set to the recording mode and the shutter release button 11 is pressed in this state, the normal photography is not performed and the cable 118 is connected. The image data input from the playback device is stored in the internal RAM 28 or the external RAM 31.
[0062]
A video signal output connector 132 is provided on the right side surface of the playback apparatus 110. A monitor display device 135 connected to the connector 132 displays an image represented by the video signal output from the playback device 110.
[0063]
An operation unit 139 (see FIG. 4) including a main switch 133, a connector selection switch 134, an operation selection switch 136, a forward button 137, a reverse button 138, and a recording button 131, and a warning lamp 141 is provided.
[0064]
Referring also to FIG. 4, by setting the main switch 133 to the position of the index 142, 143 or 144, the electronic circuits in the playback device 110 are in the off state, the playback mode, or the recording mode, respectively.
[0065]
When the connector selection switch 134 is set to the position of the index 146, the connector 116 is selected and image data is taken in via the connector 116. When the switch 134 is set to the position of the index 147, the connector 148 is selected, from which image data is taken. The memory cartridge 112 loaded in the opening 113 is connected to the connector 148. Whether or not the electronic still camera 10 or the memory cartridge 112 is connected to the connector 116 or 148 is detected by the CPU 152. When the electronic still camera 10 or the memory cartridge 112 is not connected to the selected connector 116 or 148, the warning lamp 141 is turned on by a warning signal output from the CPU 152, and a warning to that effect is given.
[0066]
The operation selection switch 136 is used to enable either the operation of the operation unit 20 or the operation of the operation unit 139 in the electronic still camera 10 when the electronic still camera 10 is connected to the connector 116. It is. At the position of the index 149, the operation on the playback device 110 becomes valid and the operation on the electronic still camera 10 becomes invalid. At the position of the index 150, the operation of the electronic still camera 10 is valid, and the operation of the operation unit 139 is invalid.
[0067]
That is, the CPU 44 of the electronic still camera 10 and the CPU 152 of the playback apparatus 110 are connected to each other via the cable 118, and the states of the input signals from the operation units 20 and 139 read by these CPUs 44 and 152 are mutually connected. Notify Therefore, according to the setting of the operation selection switch 136, the playback device 110 can be controlled from the operation unit 20 of the electronic still camera 10, or conversely, the electronic still camera 10 can be controlled from the operation unit 139 of the playback device 110. Is also possible.
[0068]
When the forward button 137 is pressed while the main switch 133 is set to the position of the index 143, one of the image data stored in the internal RAM 28 of the electronic still camera 10 or the external RAM 114 of the memory cartridge 112 is input. The image data having the framed frame number is read and reproduced. Conversely, when the backward button 138 is pressed, the image data of the frame number decremented by one is reproduced. By continuing to press the button 137 or 138, the images to be reproduced in the forward direction or the reverse direction are sequentially advanced one by one.
[0069]
When the electronic still camera 10 and the memory cartridge 112 are connected to the connectors 116 and 148, respectively, the CPU 152 detects this. The CPU 152 controls a circuit in the electronic still camera 10 or the memory cartridge 112 via the connector 116 or 148 to read out necessary image data and select a RAM. The image data supplied via the connector 116 or 148 is selected by the selector 153 under the control of the CPU 152, and the selected image data is supplied to the reproduction circuit 156 via the selector 154.
[0070]
The pulse generating circuit 166 gives a timing pulse to the recording circuit 57 when the recording button 131 is pressed. This timing pulse defines the timing for causing the recording circuit 157 to process only the video signal for one image.
[0071]
The reproduction circuit 156 performs D / A conversion on various pieces of information included in the image data, and generates a composite video signal including horizontal and vertical synchronization signals formed from the address information. This video signal is supplied to the monitor display device 135 via the connector 132, and an image represented by the video signal is displayed on the monitor screen.
[0072]
In contrast to the playback circuit 156, the recording circuit 157 A / D converts the composite video signal taken from the VTR (video tape recorder) 158 via the connector 117 in units of one image and separates it into various information. Form data. This image data is stored in the internal RAM 28 of the electronic still camera 10 or the external RAM 114 of the memory cartridge 112 via the selector 154 and the selector 153.
[0073]
When the playback switch 158B of the VTR 158 connected to the connector 117 is pressed to enter the image playback mode, the moving image recorded on the video tape 165 is played back and displayed on the screen of the monitor display device 164. From the video signal output terminal 158A of the VTR 158, a video signal representing the moving image being displayed is output and supplied to the connector 117. A moving image is composed of a large number of still images of one image (scanning time: 1/60 seconds), and a video signal representing each still image is continuously supplied to the recording circuit 157 via a connector 117.
[0074]
Normally, the recording circuit 157 does not process the supplied video signal. When the pulse generation circuit 166 outputs a timing pulse by pressing the recording button 131, the recording circuit 157 enters a signal standby state in order to start the recording process. In this state, the recording circuit 157 starts processing the video signal by detecting the vertical synchronizing signal of the video signal supplied first, and stops processing by detecting the next vertical synchronizing signal. As a result, only the video signal for one image is converted into digital image data. The operation state in the operation unit 139 such as pressing of the recording button 131 is always scanned by the CPU 152.
[0075]
The VTR 158 is provided with a temporary stop switch 158C. By pressing this switch 158C, one desired image stored in the frame memory in the VTR 158 can be displayed still on the monitor screen, and the output of the video signal representing the image can be continued repeatedly. By pressing the record button 131 during the pause, the data of the still-displayed image can be reliably recorded and duplicated in the reproducing apparatus 110.
[0076]
The operation of the second embodiment having the above configuration will be described next.
[0077]
In reproduction, the connector 37 A of the electronic still camera 10 storing image data in the internal RAM 28 and the external RAM 31 and the connector 116 of the reproduction apparatus 110 are connected by a cable 118. A memory cartridge 112 is loaded from the opening 113 and connected to the connector 148. Furthermore, a monitor display device 135 is connected to the connector 132. The operation of the operation unit 139 is validated by setting the operation selection switch 136 to the position of the index 149. Thereafter, the main switch 133 is switched from the position of the index 142 to the position of the index 143, whereby the selector 154 selects the reproduction circuit 156 side, and the electronic circuit of the reproduction apparatus 110 is set in the reproduction mode.
[0078]
When the connector selection switch 134 is set at the position of the index 146, the selector 153 selects the connector 116 side and the image data output from the electronic still camera 10 is taken in. This image data is supplied to the reproduction circuit 156 via the selectors 153 and 154, where it is converted into an analog video signal suitable for display. The monitor display device 135 that has been supplied with the video signal via the connector 132 displays a still image represented by the video signal on the monitor screen. The frame number of the image being displayed on the monitor is displayed on the liquid crystal display 12 of the electronic still camera 10.
[0079]
By operating the forward button 137 or the backward button 138 while observing the image displayed on the monitor, the image displayed on the monitor can be selected from the internal RAM 28 or the external RAM 31. If the forward button 137 is kept pressed, a new image in which the frame number is incremented first in the internal RAM 28 is displayed on the monitor. Next to the image of the last frame number in the internal RAM 28, the images in the external RAM 31 are sequentially displayed on the monitor from the frame number 1. By pressing the reverse button 138, the images can be sequentially displayed on the monitor in the direction of decreasing the frame number.
[0080]
When the connector selection switch 134 is set to the position of the index 147, the selector 153 selects the memory cartridge 112 side. Image data is taken from the external RAM 114 in the memory cartridge 112. The image represented by the image data recorded in the memory cartridge 112 is displayed on the monitor display device 35 in the same manner as described above.
[0081]
Further, when only one of the electronic still camera 10 and the memory cartridge 112 is connected to the connector 116 or 114, the connected connector is selected by the connector selection switch 134 and taken in from the connector. Image data can be reproduced. However, if the connected connector is not selected, for example, when the memory cartridge 112 is connected to the connector 148 and the electronic still camera 10 is not connected to the connector 116 and the connector selection switch 134 is set to the position of the index 146, the CPU 152 Turns on the warning lamp 141 to inform that the selected reproduction is impossible.
[0082]
In recording, the video signal output terminal 158A of the VTR 158 is connected to the connector 117, and the main switch 133 is set to the position of the index 144. As a result, the selector 154 selects the recording circuit 157 side in accordance with a command from the CPU 152, and the electronic circuit of the reproducing apparatus 110 enters the recording mode.
[0083]
The connector 116 or 148 is selected by the connector selection switch 134. The VTR 158 enters an image playback state when the playback switch 158B is pressed. When the pause switch 158C is pressed in this image reproduction state, the image at that time is still displayed on the screen of the monitor display device 164. The video signal of the still image displayed on the monitor is continuously supplied to the recording circuit 157 via the video signal output terminal 158A and the connector 117.
[0084]
When the recording button 131 is pressed while the video signal for one desired image is continuously supplied to the recording circuit 157, the pulse generation circuit 166 supplies a timing pulse to the recording circuit 157. Receiving the timing pulse, the recording circuit 157 starts the process of converting the video signal into image data by detecting the vertical synchronization signal. This process is stopped by detecting the next vertical synchronizing signal. The image data for one image thus obtained is supplied to the connector 116 or 148 selected by the selector 153 via the selector 154 and stored in the internal RAM 28 (or the external RAM 31) or the external RAM 114. The operation of the warning lamp 141 in the recording mode is the same as the operation in the reproduction mode.
[0085]
When the operation selection switch 136 is set to the position of the index 150, the selector 153 selects the connector 116 side. Operations on the operation unit 139 except for the operation selection switch 136 are invalidated, and operations on the electronic still camera 10 are validated.
[0086]
When the main switch 14 of the electronic still camera 10 is set to the position of the index 26, the CPU 152 causes the selector 154 to select the reproduction circuit 156 according to this, and sets the electronic circuit of the reproduction apparatus 110 to the reproduction mode. Here, either the internal RAM 28 or the external RAM 31 is selected by operating the memory selection switch 13, and the frame number is selected by operating the forward button 16 or the reverse button 17. The image data of the frame number selected in this way is read from the RAM 28 or 31 and is displayed still on the monitor display device 135.
[0087]
By setting the main switch 14 to the position of the index 27, the selector 154 selects the recording circuit 157 side, and the electronic circuit of the reproducing apparatus 110 enters the recording mode. In this state, when the VTR 158 is operated to display a desired image on the monitor display device 164, the output of the video signal of the still image is continued from the video signal output terminal 158A. When the shutter release button 11 is pressed, a timing pulse is supplied from the pulse generation circuit 166 to the recording circuit 157, and the recording circuit 157 converts the input video signal into image data. This image data is supplied to the electronic still camera 10 via the selectors 154 and 153 and recorded in the internal RAM 28 or the external RAM 31 according to the setting of the memory selection switch 13.
[0088]
By switching the operation selection switch 136 to the position of the index 149, the operation in the operation unit 139 can be validated and the operation in the operation unit 20 of the electronic still camera 10 can be invalidated.
[0089]
In the above embodiment, the recording circuit 157 is provided in the electronic circuit of the reproducing apparatus 110. However, the recording circuit 157 may be omitted and only the reproducing process as shown in FIG.
[0090]
Third embodiment
FIG. 7 shows the structure of a digital electronic still camera according to a third embodiment of the present invention. Although not specifically mentioned in the first and second embodiments described above, the image data is generally subjected to data compression processing to be stored in an external memory of a memory cartridge or an internal memory of an electronic still camera. Stored in This is because the image data has a very large capacity, and image data having a large number of frames cannot be stored in the semiconductor memory without compression processing. When the image data stored in these memories is reproduced, the compressed image data is decompressed.
[0091]
The image data is generally composed of luminance data Y and color data Cr 1 and Cb. Each of these image data Y, Cr and Cb is separately compressed and decompressed.
[0092]
In this embodiment, a two-dimensional orthogonal transform coding method is used for compressing image data. Since the compression processing for each of the image data Y, Cr, and Cb is exactly the same (although the parameter values used in the compression processing are naturally different), only one type of image data, for example, luminance data Y will be described.
[0093]
Image data is divided into a plurality of blocks. For example, one block is composed of 8 dots × 8 dots. The image data of each block is subjected to two-dimensional orthogonal transformation (for example, two-dimensional discrete cosine transformation = DCT). The orthogonally transformed data is normalized using a predetermined normalization coefficient (data is divided using the normalization coefficient), and data having a value smaller than this normalization coefficient is rounded down to 0 ( Quantization processing). The quantized data is Huffman encoded.
[0094]
The decompression process of the compressed image data is performed in the reverse procedure described above. That is, the compressed image data is first decoded and then subjected to two-dimensional orthogonal inverse transform. Finally, the expanded image data for each block is synthesized (arranged) on the memory so as to form one screen.
[0095]
In the digital electronic still camera 200 shown in FIG. 7, in the recording mode, a subject image formed on a solid-state electronic image pickup device 202 such as a CCD through an image pickup optical system 201 is a shutter release button (not shown). Is converted into an electrical signal at the timing of pressing and is output from the CCD 202. The video signal representing the subject image output from the CCD 202 is subjected to preprocessing such as amplification and white balance adjustment in the preprocessing circuit 203, and then converted into digital image data in the A / D conversion circuit 204. Once stored in the frame memory 207 via the controller 205. In FIG. 7, a circuit for controlling the timing of reading from the CCD 202 is omitted.
[0096]
The image data once stored in the frame memory 207 is read out in the order of sequential scanning under the control of the memory controller 205, and after field / frame conversion if necessary, luminance signal / color signal (Y / C) Input to the processing circuit 206. The luminance signal / color signal processing circuit 206 generates luminance (Y) data and color (C = Cr + Cb) data from the input image data. These luminance data and color data are again provided to the frame memory 207 for storage.
[0097]
Thereafter, the image data is read again from the frame memory 207 and applied to the DCT / inverse DCT conversion circuit 209. A DCT / inverse DCT conversion circuit 209 is a circuit that compresses image data by the above-described DCT conversion and expands the image data by inverse DCT conversion. Since the amount of image data for one frame is reduced by the DCT conversion, the number of frames that can be recorded in the internal memory 231 of the memory card 230 or the internal memory 213 of the camera increases. The compressed image data is again given to the frame memory 207 and recorded.
[0098]
Subsequently, the compressed image data is read from the frame memory 207 and supplied to the encoding / decoding circuit 208. The compressed image data is encoded by the circuit 208 and stored in the external memory 231 of the memory card 230 or the internal memory 213 of the electronic still camera 200 via the card interface 211 according to the selection of the selector 212. The selector 212 is controlled by the system controller 210 as will be described later.
[0099]
As in the first and second embodiments described above, the electronic still camera 200 has a connector 216 for detachably connecting the memory card 230. When the memory card 230 is connected via the connector 216, the system controller 210 of the camera 200 can access the external memory 231 in the memory card 230.
[0100]
The digital electronic still camera 200 includes an internal memory 213. The internal memory 213 is also constituted by a semiconductor memory like the external memory 231 and preferably has a storage capacity as large as possible. The internal memory 213 may be a static RAM, or a dynamic RAM may be used to increase the density and speed. If dynamic RAM is used, a refresh circuit 214 will be required.
[0101]
In the playback mode, the compressed frame data stored in the external memory 231 or the internal memory 213 is read out from these memories with the designated frame number, and after playback processing, a viewfinder (for example, a liquid crystal display device) is read out. 218) or provided to an external display device via a connector 217. The connector 217 is for connecting an external display device.
[0102]
That is, the compressed image data read from the memory 231 or 213 is given to the encoding / decoding circuit 208 via the selector 212 and the interface 211, and is decoded and stored in the frame memory 207. Thereafter, the image data is read from the frame memory 207 and given to the DCT / inverse DCT conversion circuit 209, and the inverse DCT conversion is performed. Then, the data is once stored in the frame memory 207 again, read out from the frame memory 207 again, and supplied to the reproduction processing circuit 215. The reproduction processing circuit 215 converts the input digital image data into an analog video signal, converts it into a signal suitable for display, and outputs it. The analog video signal is supplied to the viewfinder 218 to display an image, or is supplied to an external display device (not shown) via the connector 217 to display the image. Needless to say, a switch for switching the connector 217 or the viewfinder 218 can be provided for outputting the analog video signal. Of course, the video signal may be supplied to both the connector 217 and the viewfinder 218 at the same time.
[0103]
The system controller 210 controls the memory controller 205 for compressing and decompressing the image data described above, switching control of the selector 212, switching control of the recording mode / playback mode, access of the memories 213 and 231 and designation of frame numbers, etc. And control of display units 221 and 222 to be described later.
[0104]
FIG. 8 shows a display example of the display unit 221. The display unit 221 includes a section 223 for displaying the selected mode, a section 224 for displaying information about the internal memory 213, a section 225 for displaying information about the external memory 231, and a section for displaying the transfer direction of image data, etc. 226 is provided. In section 223, characters representing the selected mode are displayed (although characters for all modes are drawn in FIG. 8).
[0105]
FIG. 9 shows a part of the operation unit 222. The operation unit 222 is provided with a mode selection button 233, a select button 234, a confirmation button 235, a shutter release button 236, and DOWN and UP buttons 237, 238 for reverse and forward feed.
[0106]
This electronic still camera 200 has the following modes.
[0107]
Recording mode (REC)
A subject is photographed, and image data for one frame obtained by photographing is recorded in the internal memory 213 or the external memory 231.
Playback mode (PB)
Image data for one designated frame recorded in the internal memory 213 or the external memory 231 is reproduced.
Memory change (or memory selection) mode (CHANGE)
It is determined whether recording or reproduction processing (including erasure) is performed on the internal memory 213 or the external memory 231.
Copy mode (COPY)
One frame of image data designated between the internal memory 213 and the external memory 231 is transferred and stored.
All copy mode (COPY ALL)
All the image data stored therein is transferred and stored between the internal memory 213 and the external memory 231.
Erase mode (ERASE)
The designated image data in the internal memory 213 or the external memory 231 is deleted.
[0108]
These modes can be selected by a mode selection button 233. That is, every time the mode selection button 233 is pressed, the mode displayed on the display unit 221 changes in a certain order. The mode represented by the displayed character is selected.
[0109]
Hereinafter, the operation of each of these modes will be described.
[0110]
When the recording mode (REC) is selected, the number of remaining frames that can be recorded in the internal memory 213 and the number of remaining frames that can be recorded in the external memory 231 are displayed in the display sections 224 and 225, respectively. The underline 224a or 225a in the display section 224 or 225 corresponding to the memory (either the internal memory 213 or the external memory 231) set in the memory change (memory selection) mode (CHANGE) is lit. In this recording mode, as described above, one frame of image data representing the photographed subject image is compressed and stored in the selected one of the memories 213 and 231.
[0111]
In the playback mode (PB), the currently playing frame number is displayed in the display section 224 or 225. Of the underlines 224a and 225a, the one corresponding to the selected memory is lit. The frame number of the image to be reproduced is incremented by pressing the UP button 238 and decremented by pressing the DOWN button 237. In this playback mode, as described above, the image data of the designated frame number is read from the selected memory in the internal memory 213 or the external memory 231, and after decompression processing and playback processing, the connector 217 or view This is given to the finder 218.
[0112]
When the memory change (selection) mode (CHANGE) is selected, each time the select button 234 is pressed, the lit underlines 224a and 225a in the sections 224 and 225 are switched. The lighting of the underline 224a represents the selection of the internal memory 213, and the lighting of the underline 225a represents the selection of the external memory 231. When the confirm button 235 is pressed, the selection of the memory corresponding to the underline that is lit at that time is confirmed. The system controller 210 controls the selector 212 according to the memory selection setting.
[0113]
In the copy mode (COPY), the memory from which image data is to be read (transfer source) is determined in the memory change (CHANGE) mode. However, since the transfer source and transfer destination memories are determined by setting the transfer direction described below, this operation and processing are not necessarily required. The frame number of the image data to be read in the determined transfer source memory is designated by operating the UP button 238 or the DOWN button 237. The designated frame number is displayed in the display section 224 or 225. By pressing the select button 234, the lit arrow of the two arrows in the display section 226 is switched. A lower right arrow indicates a transfer from the internal memory 213 to the external memory 231, and an upper left arrow indicates a transfer from the external memory 231 to the internal memory 213. When the shutter release button 236 is pressed, a copy operation is executed. That is, one frame of image data having the designated frame number is read from the selected memory 213 or 231 and transferred to the other memory 231 or 213 via the selector 212 and stored in an empty area of the memory. . The storage location or frame number of the image data in the transfer destination memory may be designated. If this transfer is performed while displaying the image data to be transferred, it is possible to know what image data is being transferred.
[0114]
In the all copy mode (COPY ALL), the transfer direction is determined by pressing the select button 234 in the same manner as described above, and an arrow indicating the determined direction is displayed in the section 226. When the shutter release button 236 is pressed, all image data stored in the transfer source memory is read out, transferred to the transfer destination memory via the selector 212, and stored.
[0115]
In the erase mode (ERASE), after the memory storing the image data to be erased is selected in the memory change (selection) mode, the frame number of the image data to be erased is determined using the UP button 238 or the DOWN button 237. Specified. When the shutter release button 236 is pressed, the image data of the designated frame number is deleted.
[0116]
As described above, according to the electronic still camera of the third embodiment, as in the case of the first embodiment, the compressed image data of the photographed image is stored in the internal memory without necessarily carrying the memory cartridge. 213 can be stored. The image data stored in the internal memory 213 can be reproduced and displayed, and can be transferred and stored in an external memory of the memory cartridge if necessary.
[0117]
Fourth embodiment
FIG. 10 shows the structure of a digital electronic still camera according to the fourth embodiment of the present invention.
[0118]
The electronic still camera 240 according to the fourth embodiment is different from the electronic still camera 200 according to the third embodiment shown in FIG. 7 in that the selector 212 and the internal memory 213 are not provided. Other configurations are basically the same as those in the electronic still camera 200 of the third embodiment.
[0119]
FIG. 10 also shows a switch 241 for detecting the insertion and removal of the memory card 230 (connection to the connector 216 and detachment from the connector 216). This memory card detection switch is also provided in the electronic still camera of the third embodiment, but is not shown in FIG.
[0120]
The memory card detection switch 241 can be realized by a switch that turns on / off when the memory card 230 loaded comes into contact, or can be realized on the program execution processing of the system controller 210. . The latter memory card detection will be described in detail. As shown in FIG. 12, the storage area of the external memory 231 of the memory card 230 is divided into a header area and an image area for storing image data. The header area includes a tuple ID (identification) that is an identification code indicating that the memory card is for a digital electronic still camera, a pointer indicating the data length of the tuple ID, the speed and type of the external memory 231. , Device size data indicating the capacity thereof, and a tuple end code indicating the end of this tuple (in general, FFh is used; h indicates a hexadecimal number) are recorded. The system controller 210 addresses the device ID area in the header area of the memory card 230 and reads the data stored therein. If the memory card 230 is connected to the connector 216, the device ID is read. Since the device ID is generally data other than OOh, if the read data is other than OOh, the system controller 210 determines that the memory card 230 is connected to the connector 216. Since the data bus is pulled down to the L level, if the memory card 230 is not connected, the read data is OOh. In this case, it is determined that the memory card 230 is not attached.
[0121]
In the digital electronic still camera 240 according to the fourth embodiment, the image area of the external memory 231 of the memory card 230 is filled with image data, and no more image data can be stored. In this case, even when the memory card 230 is not attached, it is possible to take an image of at least one frame.
[0122]
With reference to FIG. 11, a process for enabling photographing even when the image area of the memory 231 of the memory card 230 is filled with image data will be described. This process is mainly executed by the system controller 210.
[0123]
When the power is turned on (step 251) and the memory card 230 is inserted (connected), this is detected by the detection switch 241 (step 252).
[0124]
If the memory card 230 is connected to the connector 216, the data in the header area of the external memory 231 and other necessary areas are read, and the capacity of the empty area in the external memory 231 or recorded data based on the read data. The number of remaining frames that can be recorded on the memory card 230 is obtained. The number of remaining frames is displayed on the display unit 221 (step 253).
[0125]
Regardless of whether the number of remaining frames is zero or any other number, it is unconditionally permitted to press the shutter release button, and if the shutter release button is pressed, the image data obtained by shooting is It is stored in the frame memory 207 (step 254). The Y / C processing circuit 206 performs processing for generating luminance (Y) data and color (C) data from the obtained image data, and the resulting luminance data and color data are stored again in the frame memory 207. (Step 255).
[0126]
After this Y / C processing, it is determined whether the number of remaining frames detected previously is zero, that is, whether compressed image data can no longer be recorded in the memory card 230 (step 256).
[0127]
If there is still a recordable empty area in the memory card 230, that is, if the number of remaining frames is not zero, image data compression processing by DCT conversion and encoding is performed (step 257), and the compressed image data is stored in the memory card 230. It is recorded in the external memory 231 of the memory card 230 (step 258). Thereafter, the process returns to step 253 again.
[0128]
When the number of remaining frames in the memory card 230 is zero, image data can no longer be recorded in the memory card 230, so that a new memory card is replaced with the memory card 230 on the display unit 221. At the same time, the auto power off operation is canceled (step 259). The auto power-off operation is a process for automatically turning off the main power when a predetermined time or more has passed without taking another picture after the previous photographing process. This is because the image data (Y, C data) held in the frame memory 207 is erased when the operating power is not supplied.
[0129]
When a user installs a new memory card or a memory card with an empty area capable of recording at least one frame of image data instead of a full memory card, the removal of a full memory card and the installation of a new memory card are detected. This is detected by the switch 241 (step 260).
[0130]
Thereafter, the system controller 210 accesses the external memory 231 of the newly installed memory card 230 and if there is an empty area in which image data can be recorded (step 261), it is held in the frame memory 207. Luminance data and color data are compressed at a predetermined compression rate and then recorded on a new memory card (steps 257 and 258). If there is no empty area in the newly installed memory card 230, the memory card replacement request will be displayed again. The compression rate in the image data compression process may be set in the operation unit 222 or automatically determined.
[0131]
In order to enable shooting even when no memory card is inserted, even if NO in step 252, the number of remaining frames in step 253 is displayed, the shutter release is accepted in step 254, and step 255 Proceeding to Y / C processing, the image data after Y / C processing is held in the frame memory 207. After that, if no card is inserted, the card insertion request is displayed on the display unit 221 and the auto power-off is canceled and the insertion of the memory card is detected as in steps 259 to 261 and 257 to 258. After that, the empty area of the inserted memory card is searched, and if there is an empty area, the image data held in the frame memory 207 may be compressed and written to the memory card.
[0132]
In this way, by using the frame memory indispensable for digital signal processing in the digital electronic still camera, even if it is desired to shoot more than the predetermined number of frames on the memory card, at least one frame is compressed. Regardless of the size, it can be temporarily stored. Even when no memory card is inserted, the captured image data can be temporarily stored in the frame memory. It is possible to increase the convenience of the operator by operating the temporarily stored image data to be recorded on the memory card when a new memory card is inserted.
[Brief description of the drawings]
FIG. 1 is a block diagram showing an electronic circuit of an electronic still camera according to a first embodiment of the present invention.
FIG. 2 is an external perspective view of an electronic still camera.
FIGS. 3A, 3B and 3C show display examples on a liquid crystal display of an electronic still camera.
FIG. 4 is a block diagram showing an electronic circuit built in a reproducing apparatus for an electronic still camera according to a second embodiment of the present invention.
FIG. 5 is an external perspective view of an electronic still camera and a playback device.
FIG. 6 is a block diagram of an electronic circuit of a reproducing apparatus according to a modified example.
FIG. 7 is a block diagram showing an electrical configuration of a digital electronic still camera according to a third embodiment of the present invention.
FIG. 8 shows a display unit.
FIG. 9 shows an operation unit.
FIG. 10 is a block diagram showing an electrical configuration of a digital electronic still camera according to a fourth embodiment of the present invention.
FIG. 11 is a flowchart showing the operation.
FIG. 12 shows various areas of the external memory of the memory card.
[Explanation of symbols]
10 Electronic still camera
12 Liquid crystal display
12A, 12B display section
13 Memory selection switch
14 Main switch
28 Internal RAM
29 Memory cartridge
31 External RAM
36,51 Monitor display device
46 Cartridge detection circuit
49 Playback circuit
110 Playback device
112 Memory cartridge
114 External RAM
116, 117, 148 connector
134 Connector selection switch
135 Monitor display device
136 Operation selection switch
137 Forward button
138 Reverse feed button
139 Operation unit
153 and 154 selectors
156 Playback circuit
157 Recording circuit
200 Digital electronic still camera
205 Memory controller
206 Y / C processing circuit
207 frame memory
208 Coding / decoding circuit
209 DCT / inverse DCT conversion circuit
212 selector
213 Internal memory
215 Reproduction processing circuit
216 and 217 connectors
221 display
222 Operation unit
230 Memory card
231 External memory
240 Digital Electronic Still Camera
241 Memory card detection switch

Claims (9)

A first connector for connecting an electronic still camera and receiving image data read out and output from the memory of the electronic still camera;
A second connector for connecting the memory cartridge and receiving image data read out and output from the memory in the memory cartridge;
Reproducing means for converting the image data provided into a video signal suitable for display and outputting it,
Image designating means for designating image data to be read from a memory of an electronic still camera connected to the first connector or a memory cartridge connected to the second connector, and the first Connector selecting means for selecting either one of the second connector and the second connector and supplying the reproduction means with the image data designated by the image designation means through the selected connector;
Playback device for electronic still cameras. 2. The reproducing apparatus according to claim 1, further comprising warning means for warning when the corresponding electronic still camera or memory cartridge is not connected to the first or second connector selected by the connector selecting means. . A first connector for connecting an electronic still camera having a first operation unit for instructing an operation and receiving image data read out and output from a memory of the electronic still camera;
A second connector for connecting the memory cartridge and receiving image data read out and output from the memory in the memory cartridge;
Reproducing means for converting the image data provided into a video signal suitable for display and outputting it,
A second operation unit including a connector selection unit that selects one of the first and second connectors and supplies image data supplied through the selected connector to the reproduction unit; and the first operation unit. The operation input in either one of the second operation unit and the second operation unit is enabled, the other operation input is disabled, and the playback apparatus performs the operation commanded by the operation input in response to the operation input from the enabled operation unit. Selection means,
Playback device for electronic still cameras. An internal memory for storing image data, a connector for connecting a memory cartridge incorporating an external memory for storing image data, and a memory for selecting whether to read image data from the internal memory or the external memory An electronic still camera comprising a selection means and an image data reading means for reading out and outputting image data designated from the memory selected by the memory selection means is connected, and is read from the memory of the electronic still camera. A first connector for receiving the output image data,
A second connector for connecting the memory cartridge and receiving image data read out and output from the memory in the memory cartridge;
Reproducing means for converting the given image data into a video signal suitable for display and outputting, and selecting one of the first and second connectors, and reproducing the image data supplied through the selected connector Connector selection means to be given to the means,
Playback device for electronic still cameras. 5. The playback apparatus according to claim 4, further comprising a third connector for connecting a display device to which a video signal output from the playback means is provided. 5. The reproducing apparatus according to claim 4, further comprising image designating means for designating image data to be read from a memory of the electronic still camera or a memory cartridge. 5. The reproducing apparatus according to claim 4, further comprising means for instructing from which of the internal memory and the external memory of the electronic still camera image data should be read. The reproduction apparatus has a first operation unit including the connector selection means, and the electronic still camera has a second operation unit for instructing its operation,
The reproduction device further enables the operation input in one of the first operation unit and the second operation unit, invalidates the other operation input, and responds to the operation input from the valid operation unit. Has an operation selection means for performing an operation instructed by an operation input.
The reproducing apparatus according to claim 4. A fourth connector that receives an input of a video signal from the outside, and a video signal input from the fourth connector is converted into image data, and the image data is converted to the electronic still through the first or second connector. .Recording means stored in the memory of a camera or memory cartridge,
The playback device according to claim 4, further comprising:

Images